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Kempton Manshaft AMD Project - Garrett County

The Kempton Man Shaft Project is one of several projects sponsored by the Maryland Department of Natural Resources Power Plant Research Program, and funded by the U.S. Department of Interior Office of Surface Mining, to demonstrate the replacement of  concrete with coal combustion products (CCPs) from nearby coal fired power plants. 

The Kempton Mine complex was an active deep mine during the period of 1912-1950. The mine tunnels, varying in depths of 130-420 feet below grade, lie beneath an area of approximately 12 square miles spanning portions of West Virginia and Maryland.  Most of  the tunnels are flooded by surface water intrusion of from local aquifers.  The presence of residual coal in the tunnels acidifies the water and causes environmental damage when it discharges into nearby Laurel Run, a tributary of the Potomac River.  The Kempton Man Shaft, which lowered miners to the mine tunnel entrances, is 420 feet below grade.

 

Exploratory boreholes drilled around the Kempton Man Shaft revealed horizontal fractures in siltstone bedrock at depths between 120-140 feet.  The seepage of ground water into the Kempton Man Shaft from these fractures is estimated to be 45,000 to 145,000 gallons per day.  Ground water level measurements from monitoring wells installed in the boreholes indicated that the Kempton Man Shaft is a direct conduit for good quality ground water to flow into the mine pool.  The project objective was to reduce the amount of ground water lost to the mine pool by installing a grout curtain to a depth of 160 feet around the shaft using a cementitious grout prepared from CCPs from nearby power plants.  Because the available coal fly ash was a Class F ash (low calcium), ash from a fluidized bed furnace, which mixes the coal with limestone prior to burning, was added to ensure proper hardening.

 

Grout was injected into 28 6-inch holes, cased to 20 feet and filled to 150-160 feet using tremie line.  For most holes, good communication between adjacent holes was observed, indicating the flow of grout through the fractured siltstone was occurring.
                                                                                                                                           

Since completion of the grouting, a combination of potentiometric surface monitoring and dye tracing activities is being used to evaluate the effectiveness of the grout curtain in limiting the flow of ground water into the Kempton Man Shaft.  In addition, core samples will be taken to evaluate the bonding integrity of the grout and rock.

 

 
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Last modified: 10/29/08